AGA Report No. 9

AGA Report No. 9, Measurement of Gas ... of the American Gas Association’s Transmission Measurement Committee under the joint chairmanship ... 11 4.4 ...

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AGA Report No. 9 Measurement of Gas by Multipath Ultrasonic Meters Second Edition April 2007

AGA Report No. 9 Measurement of Gas by Multipath Ultrasonic Meters Second Edition April 2007

Transmission Measurement Committee

Copyright 2007, Operating Section, American Gas Association 400 North Capitol Street, NW, 4th Floor, Washington, DC 20001, U.S.A. Phone: (202) 824-7000 • Fax: (202) 824-7082 • Web: www.aga.org

Catalog # XQ0701

DISCLAIMERS AND COPYRIGHT The American Gas Association’s (AGA) Operating Section provides a forum for industry experts to bring collective knowledge together to improve the state of the art in the areas of operating, engineering and technological aspects of producing, gathering, transporting, storing, distributing, measuring and utilizing natural gas. Through its publications, of which this is one, AGA provides for the exchange of information within the gas industry and scientific, trade and governmental organizations. Each publication is prepared or sponsored by an AGA Operating Section technical committee. While AGA may administer the process, neither AGA nor the technical committee independently tests, evaluates or verifies the accuracy of any information or the soundness of any judgments contained therein. AGA disclaims liability for any personal injury, property or other damages of any nature whatsoever, whether special, indirect, consequential or compensatory, directly or indirectly resulting from the publication, use of or reliance on AGA publications. AGA makes no guaranty or warranty as to the accuracy and completeness of any information published therein. The information contained therein is provided on an “as is” basis and AGA makes no representations or warranties including any expressed or implied warranty of merchantability or fitness for a particular purpose. In issuing and making this document available, AGA is not undertaking to render professional or other services for or on behalf of any person or entity. Nor is AGA undertaking to perform any duty owed by any person or entity to someone else. Anyone using this document should rely on his or her own independent judgment or, as appropriate, seek the advice of a competent professional in determining the exercise of reasonable care in any given circumstances. AGA has no power, nor does it undertake, to police or enforce compliance with the contents of this document. Nor does AGA list, certify, test or inspect products, designs or installations for compliance with this document. Any certification or other statement of compliance is solely the responsibility of the certifier or maker of the statement. AGA does not take any position with respect to the validity of any patent rights asserted in connection with any items that are mentioned in or are the subject of AGA publications, and AGA disclaims liability for the infringement of any patent resulting from the use of or reliance on its publications. Users of these publications are expressly advised that determination of the validity of any such patent rights, and the risk of infringement of such rights, is entirely their own responsibility. Users of this publication should consult applicable federal, state and local laws and regulations. AGA does not, through its publications intend to urge action that is not in compliance with applicable laws, and its publications may not be construed as doing so. This report is the cumulative result of years of experience of many individuals and organizations acquainted with the measurement of natural gas. However, changes to this report may become necessary from time to time. If changes to this report are believed appropriate by any manufacturer, individual or organization, such suggested changes should be communicated to AGA by completing the last page of this report titled, “Form for Proposal on AGA Report No. 9” and sending it to: Operations & Engineering Services Group, American Gas Association, 400 North Capitol Street, NW, 4th Floor, Washington, DC 20001, U.S.A. Copyright 2007, American Gas Association, All Rights Reserved.

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FOREWORD This report is published in the form of a performance-based specification for multipath ultrasonic meters for gas flow measurement. It is the result of a collaborative effort of users, meter manufacturers, flow measurement research organizations and independent consultants forming Task Group R-9 of AGA’s Transmission Measurement Committee (TMC). In addition, comments to this report were made by the Committee on Gas Flow Measurement (COGFM) of the American Petroleum Institute (API), Gas Processor’s Association (GPA), International Standard Organization’s ISO/TC 30/SC 5/WG 1, Pipeline Research Council International (PRCI) and the committee members of International School of Hydrocarbon Measurement (ISHM). This version of AGA Report No. 9 is intended to supersede all prior versions of this document. However, this document does not reference existing multipath ultrasonic meter installations. The decision to apply this document to existing installations shall be at the discretion of the parties involved. Research conducted in support of this report and cited herein has demonstrated that multipath ultrasonic meters can accurately measure gas flow and, therefore, should be able to meet or exceed the requirements specified in this report when calibrated and installed according to the recommendations contained herein. Users should follow appropriate installation, use and maintenance of an ultrasonic meter as applicable in each case. Various combinations of upstream fittings, valves and lengths of straight pipe can produce profile disturbances at the meter inlet that may result in flow-rate measurement errors. The amount of meter error will depend on the magnitude of the inlet velocity profile distortion produced by the upstream piping configuration and the meter’s ability to compensate for this distortion. Research results and flow-meter calibration data have indicated that multipath ultrasonic flow meters can accurately measure gas flow rate when installed with upstream piping lengths and/or flow conditioning systems sufficient to maintain the integrity of the flow calibration. Other effects that may also result in flow-rate measurement errors for a given installation include levels of pulsation, range of operating pressures and ambient temperature conditions. Flow-calibration guidelines are provided for occasions when a flow calibration is requested or required to verify the meter’s accuracy or to apply a calibration factor to minimize the measurement uncertainty. (See Report text and Appendix A) Unlike most traditional gas meters, multipath ultrasonic meters inherently have an embedded microprocessor system. Therefore, this report includes, by reference, a standardized set of international testing specifications applicable to electronic gas meters. These tests, summarized in Appendix B, are used to demonstrate the acceptable performance of the multipath ultrasonic meter’s electronic system design under different influences and disturbances. AGA Engineering Technical Note M-96-2-3, Ultrasonic Flow Measurement for Natural Gas Applications, is included in Appendix C, as a source of background information on ultrasonic gas metering. Contents of this technical note were based on the information available when the note was written in March 1996. Therefore, in case of any conflict between the information in the main report and the technical note (Appendix C), the content in the main report prevails.

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The flow meter and/or flow conditioner performance verification test found in Appendix D is intended to provide a method by which an ultrasonic flow metering system can be shown to perform acceptably (i.e., within the performance specifications described in Sections 5.1, 5.1.1 and 5.1.2 of this document) under varying test flow conditions. An example of overall measurement uncertainty calculations is provided in Appendix E with assumed numerical values for estimating measurement uncertainty for sites using ultrasonic gas flow meters.

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ACKNOWLEDGMENTS AGA Report No. 9, Measurement of Gas by Multipath Ultrasonic Meters, was revised by a Task Group of the American Gas Association’s Transmission Measurement Committee under the joint chairmanship of Paul LaNasa of CPL & Associates and Warren Peterson of TransCanada Corporation. Individuals who made substantial contributions to the revision of this document are: Jim Bowen, formerly of Instromet, Inc. Ed Bowles, Southwest Research Institute Joe Bronner, Pacific Gas & Electric Co Larry Fraser, Fraser & Associates Garnet Grudeski, TransCanada Calibrations John Lansing, Sick - Maihak Dan Rebman, Columbia Gulf Transmission Co. Jim Witte, El Paso Pipeline Group Other individuals who contributed to the revision of the document are: Frank Brown, Consultant Cary Carter, Texas Gas Transmission Claire Becker-Castle, Sempra Utilities Craig Chester, Williams Gas Pipeline Joel Clancy, CEESI Peter Espina, Controlotron Corporation Angela Floyd, Panhandle Energy Bill Frasier, Northern Border Pipeline Robert Fritz, Lone Star Measurement Jim Griffeth, Bristol Babcock, Inc. Terrence Grimley, Southwest Research Institute Danny Harris, Columbia Gas Zaki Husain, Chevron Texaco Mark Imboden, Controlotron Corporation Jim Keating, Consultant Allen Knack, Consumers Energy Rick Ledesma, El Paso Pipeline Group Brad Massey, Southern Star Central Gas Pipeline George Mattingly, Consultant Dannie Mercer, Atmos Energy Kevin Moir, DTE Energy Dr. Thomas Morrow, Southwest Research Institute John Naber, Emerson Process Management, Daniel Div. Dan Peace, Sensus Metering Systems Mark Pelkey, National Fuel Gas Thanh Phan, Duke Energy Reese Platzer, Questar Pipeline Alex Podgers, American Meter Co. Hank Poellnitz, III, El Paso Pipeline Group King Poon, Thermo Electron Corporation James Robertson, Pacific Gas & Electric Co. Blaine Sawchuk, Canada Pipeline Accessories Mike Scelzo, GE Sensing iv

Walt Seidl, CEESI Tushar Shah, Eagle Research Corporation Jerry Paul Smith, Consultant Karl Stappert, Daniel M&C John Stuart, Stuart Gas Measurement Consulting Fred VanOrsdol, Southern Petroleum Laboratories Kevin Warner, Instromet, Inc. Wayne Wenger, Kinder Morgan Klaus Zanker, Emerson Process Management, Daniel Div. AGA acknowledges the contributions of the above individuals and thanks them for their time and effort in getting this document revised. Lori Traweek Senior Vice President

Ali Quraishi Staff Executive, Engineering Services Director

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Table of Contents

1. 

INTRODUCTION .................................................................................................... 1 

1.1 

Scope ............................................................................................................................................................. 1 

1.2 

Principle of Measurement........................................................................................................................... 1 

2. 

TERMINOLOGY, UNITS AND DEFINITIONS ........................................................ 2 

2.1 

Terminology ................................................................................................................................................. 2 

2.2 

Engineering Units ........................................................................................................................................ 2 

2.3 

Definitions .................................................................................................................................................... 3 

3. 

OPERATING CONDITIONS ................................................................................... 6 

3.1 

Gas Quality .................................................................................................................................................. 6 

3.2 

Pressures ...................................................................................................................................................... 6 

3.3 

Temperatures, Gas and Ambient ............................................................................................................... 6 

3.4 

Gas Flow Considerations ............................................................................................................................ 6 

3.5 

Upstream Piping and Flow Profiles ........................................................................................................... 7 

3.6 

Acoustic Noise .............................................................................................................................................. 7 

4. 

METER REQUIREMENTS ..................................................................................... 9 

4.1 

Codes and Regulations ................................................................................................................................ 9 

4.2 

Quality Assurance ....................................................................................................................................... 9 

4.3  Meter Body................................................................................................................................................... 9  4.3.1  Maximum Operating Pressure ............................................................................................................... 9  4.3.2  Corrosion Resistance ............................................................................................................................. 9  4.3.3  Meter Body Lengths and Bores ............................................................................................................. 9  4.3.4  Ultrasonic Transducer Ports ................................................................................................................ 10  4.3.5  Pressure Tap ........................................................................................................................................ 10  4.3.6  Miscellaneous ...................................................................................................................................... 10  4.3.7  Meter Body Markings ......................................................................................................................... 11  4.4  Ultrasonic Transducers ............................................................................................................................. 11  4.4.1  Specifications ...................................................................................................................................... 11  4.4.2  Rate of Pressure Change...................................................................................................................... 11 

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4.4.3  4.4.4 

Exchange ..............................................................................................................................................11  Transducer Tests ..................................................................................................................................12 

4.5  Electronics ..................................................................................................................................................12  4.5.1  General Requirements ..........................................................................................................................12  4.5.2  Output Signal Specifications ................................................................................................................12  4.5.3  Electrical Safety Design Requirements ................................................................................................13  4.5.4  Component Replacement .....................................................................................................................13  4.6  Computer Programs ..................................................................................................................................13  4.6.1  Firmware ..............................................................................................................................................13  4.6.2  Configuration and Maintenance Software ...........................................................................................14  4.6.3  Inspection and Auditing Functions ......................................................................................................14  4.6.4  Alarms ..................................................................................................................................................14  4.6.5  Diagnostic Measurements ....................................................................................................................14  4.7  Documentation ...........................................................................................................................................15  4.7.1  After Receipt of Order .........................................................................................................................16  4.7.2  Before Shipment ..................................................................................................................................16 

5. 

METER PERFORMANCE REQUIREMENTS .......................................................17 

5.1  General Meter Performance Requirements ............................................................................................17  5.1.1  Large Meter Accuracy .........................................................................................................................17  5.1.2  Small Meter Accuracy .........................................................................................................................18  5.2 

6. 

Pressure, Temperature and Gas Composition Influences ......................................................................19 

INDIVIDUAL METER & METERING PACKAGE TESTING REQUIREMENTS....20 

6.1 

Leakage Tests .............................................................................................................................................20 

6.2 

Dimensional Measurements ......................................................................................................................20 

6.3 

Zero-Flow Verification Test (Zero Test) ..................................................................................................21 

6.4  Meter and Metering Package Flow-Calibration Test .............................................................................21  6.4.1  Preparation for Flow Calibration .........................................................................................................22  6.4.2  Calibration of Metering Package .........................................................................................................23  6.4.3  Calibration Adjustment Factors ...........................................................................................................23  6.4.4  Calibration Test Reports ......................................................................................................................23  6.4.5  Final Considerations ............................................................................................................................24 

7. 

INSTALLATION REQUIREMENTS ......................................................................25 

7.1  Environmental Considerations .................................................................................................................25  7.1.1  Temperature .........................................................................................................................................25  7.1.2  Vibration ..............................................................................................................................................25  7.1.3  Electrical Noise ....................................................................................................................................25  7.1.4  Pulsation...............................................................................................................................................25 

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7.2  Piping Configuration................................................................................................................................. 25  7.2.1  Flow Direction ..................................................................................................................................... 25  7.2.2  Piping Installations .............................................................................................................................. 25  7.2.3  Protrusions and Misalignments ........................................................................................................... 27  7.2.4  Internal Surface ................................................................................................................................... 28  7.2.5  Thermowells and Sample Probes ........................................................................................................ 28  7.2.6  Flow Conditioners ............................................................................................................................... 28  7.2.7  Orientation of Meter ............................................................................................................................ 28  7.2.8  Filtration .............................................................................................................................................. 28  7.2.9  Meter Tube Ports ................................................................................................................................. 29  7.3  Associated Flow Computer ....................................................................................................................... 29  7.3.1  Flow Computer Calculations ............................................................................................................... 29  7.4 

Maintenance ............................................................................................................................................... 30 

8. 

FIELD VERIFICATION TESTS ............................................................................ 31 

9. 

ULTRASONIC METER MEASUREMENT UNCERTAINTY DETERMINATION .. 32 

9.1 

Types of Uncertainties............................................................................................................................... 32 

9.2 

Meter Calibration Uncertainty ................................................................................................................ 32 

9.3  Uncertainties Arising From Differences Between the Field Installation and the Calibration Lab .... 32  9.3.1  Parallel Meter Runs ............................................................................................................................. 32  9.3.2  Installation Effects ............................................................................................................................... 32  9.3.3  Pressure and Temperature Effects ....................................................................................................... 33  9.3.4  Gas Quality Effects ............................................................................................................................. 33  9.4 

Uncertainties Due to Secondary Instrumentation .................................................................................. 33 

9.5 

Uncertainty Analysis Procedure .............................................................................................................. 34 

10.  REFERENCE LIST ............................................................................................... 35  APPENDIX A: MULTIPATH ULTRASONIC METER FLOW-CLAIBRATION ISSUES. 39  A.1 

Why Flow-Calibrate a Multipath Ultrasonic Meter? ........................................................................... 39 

A.2 

Methods for Correcting a UM’s Flow-Measurement Error ................................................................. 41 

A.3 

Example of a Flow-Weighted Mean Error (FWME) Calculation........................................................ 41 

APPENDIX B: ELECTRONICS DESIGN TESTING ..................................................... 45  B.1 Static Temperature, Dry Heat ..................................................................................................................... 45  B.2 Static Temperature, Cold............................................................................................................................. 45 

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B.3 Damp Heat, Steady State ..............................................................................................................................45  B.4 Damp Heat, Cyclic ........................................................................................................................................46  B.5 Random Vibration ........................................................................................................................................46  B.6 Sinusoidal Vibration .....................................................................................................................................46  B.7 Mechanical Shock..........................................................................................................................................46  B.8 Power Voltage Variation ..............................................................................................................................46  B.9 Short Time Power Reduction .......................................................................................................................46  B.10 Bursts (Transients) ......................................................................................................................................47  B.11 Electrostatic Discharge ...............................................................................................................................47  B.12 Electromagnetic Susceptibility ...................................................................................................................47 

APPENDIX C: ULTRASONIC FLOW MEASUREMENT FOR NATURAL GAS APPLICATIONS ............................................................................................................49  C.1 Introduction ..................................................................................................................................................50  C.1.1 Task Group Scope ....................................................................................................................................50  C.1.2 Engineering Technical Note Scope ..........................................................................................................50  C.2 Principle of Operation ..................................................................................................................................51  C.2.1 Introduction ..............................................................................................................................................51  C.2.2 Theory of Ultrasonic Flow Measurement ................................................................................................52  C.3 Technical Issues .............................................................................................................................................59  C.3.1 Speed of Sound in Natural Gas ................................................................................................................59  C.3.2 Installation Requirements .........................................................................................................................64  C.3.3 Meter Construction...................................................................................................................................67  C.3.4 Performance Characteristics .....................................................................................................................68  C.3.5 Field Checks .............................................................................................................................................70  C.4 Evaluation of Measurement Performance ..................................................................................................71  C.4.1 Signal Amplitude......................................................................................................................................72  C.4.2 Pulse Shape ..............................................................................................................................................72  C.4.3 Noise ........................................................................................................................................................73  C.4.4 Batch Diagnostics.....................................................................................................................................74  C.4.5 Diagnostic Message Block Example ........................................................................................................74  C.5 Error Analysis ...............................................................................................................................................77  C.5.1 Bias...........................................................................................................................................................77  C.5.2 Variance ...................................................................................................................................................79  C.6 Calibration .....................................................................................................................................................81  C.6.1 Dry Calibration.........................................................................................................................................81  C.6.2 Flow Calibration.......................................................................................................................................82  ix

C.6.3 Calibration Facilities ................................................................................................................................ 82  C.6.4 Transducer Replacement ......................................................................................................................... 82  C.7 Recommendations ........................................................................................................................................ 85  C.7.1 Industry .................................................................................................................................................... 85  C.7.2 Users ........................................................................................................................................................ 85  C.7.3 Manufacturers .......................................................................................................................................... 85  C.7.4 Researchers .............................................................................................................................................. 85  TABLE C1: Ultrasonic Meter Research Literature.......................................................................................... 87  TABLE C2: Ultrasonic Meter Research Activities ............................................................................................ 89  Appendix C References ......................................................................................................................................... 90 

APPENDIX D: FLOW METER AND/OR FLOW CONDITIONER PERFORMANCE VERIFICATION TEST ................................................................................................... 91  APPENDIX E: EXAMPLES OF OVERALL MEASUREMENT UNCERTAINTY CALCULATIONS – ULTRASONIC METER ................................................................ 93  E.1 General ........................................................................................................................................................... 93  E.2 The Mathematical Model .............................................................................................................................. 93  E.3 Contributory Variances ................................................................................................................................ 93  E.3.1 Uncertainty in the Uncorrected Volume Flowrate, Qf ............................................................................... 93  E.3.2 Uncertainty in the Measurement of Pressure ............................................................................................ 94  E.3.3 Uncertainty in the Measurement of Temperature ..................................................................................... 94  E.3.4 Uncertainty in the Determination of Compressibility ............................................................................... 94  E.4 Combined Uncertainty (percent).................................................................................................................. 95  E.5 Expanded Uncertainty .................................................................................................................................. 95 

APPENDIX F: FORM FOR PROPOSALS ON AGA REPORT NO. 9 ........................... 97 

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Introduction 1.1 Scope This report was developed for multipath ultrasonic transit-time flow meters used for the measurement of natural gas. Multipath ultrasonic meters have at least two independent pairs of measuring transducers (acoustic paths). Typical applications include measuring the flow of gas through production facilities, transmission pipelines, storage facilities, distribution systems and large end-use customer meter sets. 1.2 Principle of Measurement Multipath ultrasonic meters are inferential meters that derive the gas flow rate by measuring the transit times of high-frequency sound pulses. Transit times are measured for sound pulses transmitted and received between pairs of transducers positioned on or in the pipe. Pulses transmitted downstream with the gas flow are accelerated by the flow and pulses transmitted upstream against the gas flow along the identical acoustic path are decelerated. The difference in these transit times along the acoustic paths is related to the average gas flow velocity. Numerical calculation techniques are then used to compute the average axial gas flow velocity and the gas volume flow rate at line conditions through the meter. The accuracy of an ultrasonic gas meter depends on several factors, such as: • Precisely measured dimensions of the meter body and ultrasonic transducer locations • The velocity integration technique inherent in the design of the meter • The shape of the velocity profile at the meter • Levels of pulsation that may exist in the flowing gas stream • The accuracy of the transit-time measurements • Flow calibrations. The accuracy of the transit-time measurement depends on: • The electronic clock accuracy and stability • Accurate, consistent detection of sound pulse transmit and receive times • Proper compensation for signal delays of electronic components and transducers • Dimensional integrity of the meter body. Ultrasonic meter (UM) accuracy is dependent on these fundamental characterizations and their continued integrity over time. These accuracy dependencies may be adversely influenced by operational degradation of the UM over time (e.g., dirt build up on the internal surfaces of the meter, electronics drift, etc.). Emphasis on UM diagnostic data collection and interpretation in this document is made to impress upon users the need to continuously monitor UM integrity so that accuracy is maintained.

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